s3:smbd: allocate out_context_blobs with talloc
[Samba.git] / lib / ntdb / ntdb.h
bloba3a627f28d8f9dee48c8798cceb115a02f6bbbe6
1 #ifndef CCAN_NTDB_H
2 #define CCAN_NTDB_H
4 /*
5 NTDB: trivial database library version 2
7 Copyright (C) Andrew Tridgell 1999-2004
8 Copyright (C) Rusty Russell 2010-2012
10 ** NOTE! The following LGPL license applies to the ntdb
11 ** library. This does NOT imply that all of Samba is released
12 ** under the LGPL
14 This library is free software; you can redistribute it and/or
15 modify it under the terms of the GNU Lesser General Public
16 License as published by the Free Software Foundation; either
17 version 3 of the License, or (at your option) any later version.
19 This library is distributed in the hope that it will be useful,
20 but WITHOUT ANY WARRANTY; without even the implied warranty of
21 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
22 Lesser General Public License for more details.
24 You should have received a copy of the GNU Lesser General Public
25 License along with this library; if not, see <http://www.gnu.org/licenses/>.
28 #ifdef __cplusplus
29 extern "C" {
30 #endif
32 #ifdef HAVE_LIBREPLACE
33 #include <replace.h>
34 #include <system/filesys.h>
35 #else
36 #if HAVE_FILE_OFFSET_BITS
37 #define _FILE_OFFSET_BITS 64
38 #endif
40 #ifndef _PUBLIC_
41 #ifdef HAVE_VISIBILITY_ATTR
42 #define _PUBLIC_ __attribute__((visibility("default")))
43 #else
44 #define _PUBLIC_
45 #endif
46 #endif
48 /* For mode_t */
49 #include <sys/types.h>
50 /* For O_* flags. */
51 #include <sys/stat.h>
52 /* For sig_atomic_t. */
53 #include <signal.h>
54 /* For uint64_t */
55 #include <stdint.h>
56 /* For bool */
57 #include <stdbool.h>
58 /* For memcmp */
59 #include <string.h>
60 #endif
62 #if HAVE_CCAN
63 #include <ccan/compiler/compiler.h>
64 #include <ccan/typesafe_cb/typesafe_cb.h>
65 #include <ccan/cast/cast.h>
66 #else
67 #ifndef typesafe_cb_preargs
68 /* Failing to have CCAN just mean less typesafe protection, etc. */
69 #define typesafe_cb_preargs(rtype, atype, fn, arg, ...) \
70 ((rtype (*)(__VA_ARGS__, atype))(fn))
71 #endif
72 #ifndef cast_const
73 #if defined(__intptr_t_defined) || defined(HAVE_INTPTR_T)
74 #define cast_const(type, expr) ((type)((intptr_t)(expr)))
75 #else
76 #define cast_const(type, expr) ((type *)(expr))
77 #endif
78 #endif
79 #endif /* !HAVE_CCAN */
81 union ntdb_attribute;
82 struct ntdb_context;
84 /**
85 * struct TDB_DATA - (n)tdb data blob
87 * To ease compatibility, we use 'struct TDB_DATA' from tdb.h, so if
88 * you want to include both tdb.h and ntdb.h, you need to #include
89 * tdb.h first.
91 #ifndef __TDB_H__
92 struct TDB_DATA {
93 unsigned char *dptr;
94 size_t dsize;
96 #endif
98 typedef struct TDB_DATA NTDB_DATA;
101 * ntdb_open - open a database file
102 * @name: the file name (or database name if flags contains NTDB_INTERNAL)
103 * @ntdb_flags: options for this database
104 * @open_flags: flags argument for ntdb's open() call.
105 * @mode: mode argument for ntdb's open() call.
106 * @attributes: linked list of extra attributes for this ntdb.
108 * This call opens (and potentially creates) a database file.
109 * Multiple processes can have the NTDB file open at once.
111 * On failure it will return NULL, and set errno: it may also call
112 * any log attribute found in @attributes.
114 * See also:
115 * union ntdb_attribute
117 struct ntdb_context *ntdb_open(const char *name, int ntdb_flags,
118 int open_flags, mode_t mode,
119 union ntdb_attribute *attributes);
122 /* flags for ntdb_open() */
123 #define NTDB_DEFAULT 0 /* just a readability place holder */
124 #define NTDB_INTERNAL 2 /* don't store on disk */
125 #define NTDB_NOLOCK 4 /* don't do any locking */
126 #define NTDB_NOMMAP 8 /* don't use mmap */
127 #define NTDB_CONVERT 16 /* convert endian */
128 #define NTDB_NOSYNC 64 /* don't use synchronous transactions */
129 #define NTDB_SEQNUM 128 /* maintain a sequence number */
130 #define NTDB_ALLOW_NESTING 256 /* fake nested transactions */
131 #define NTDB_RDONLY 512 /* implied by O_RDONLY */
132 #define NTDB_CANT_CHECK 2048 /* has a feature which we don't understand */
135 * ntdb_close - close and free a ntdb.
136 * @ntdb: the ntdb context returned from ntdb_open()
138 * This always succeeds, in that @ntdb is unusable after this call. But if
139 * some unexpected error occurred while closing, it will return non-zero
140 * (the only clue as to cause will be via the log attribute).
142 int ntdb_close(struct ntdb_context *ntdb);
145 * enum NTDB_ERROR - error returns for NTDB
147 * See Also:
148 * ntdb_errorstr()
150 enum NTDB_ERROR {
151 NTDB_SUCCESS = 0, /* No error. */
152 NTDB_ERR_CORRUPT = -1, /* We read the db, and it was bogus. */
153 NTDB_ERR_IO = -2, /* We couldn't read/write the db. */
154 NTDB_ERR_LOCK = -3, /* Locking failed. */
155 NTDB_ERR_OOM = -4, /* Out of Memory. */
156 NTDB_ERR_EXISTS = -5, /* The key already exists. */
157 NTDB_ERR_NOEXIST = -6, /* The key does not exist. */
158 NTDB_ERR_EINVAL = -7, /* You're using it wrong. */
159 NTDB_ERR_RDONLY = -8, /* The database is read-only. */
160 NTDB_ERR_LAST = NTDB_ERR_RDONLY
164 * ntdb_store - store a key/value pair in a ntdb.
165 * @ntdb: the ntdb context returned from ntdb_open()
166 * @key: the key
167 * @dbuf: the data to associate with the key.
168 * @flag: NTDB_REPLACE, NTDB_INSERT or NTDB_MODIFY.
170 * This inserts (or overwrites) a key/value pair in the NTDB. If flag
171 * is NTDB_REPLACE, it doesn't matter whether the key exists or not;
172 * NTDB_INSERT means it must not exist (returns NTDB_ERR_EXISTS otherwise),
173 * and NTDB_MODIFY means it must exist (returns NTDB_ERR_NOEXIST otherwise).
175 * On success, this returns NTDB_SUCCESS.
177 * See also:
178 * ntdb_fetch, ntdb_transaction_start, ntdb_append, ntdb_delete.
180 enum NTDB_ERROR ntdb_store(struct ntdb_context *ntdb,
181 NTDB_DATA key,
182 NTDB_DATA dbuf,
183 int flag);
185 /* flags to ntdb_store() */
186 #define NTDB_REPLACE 1 /* A readability place holder */
187 #define NTDB_INSERT 2 /* Don't overwrite an existing entry */
188 #define NTDB_MODIFY 3 /* Don't create an existing entry */
191 * ntdb_fetch - fetch a value from a ntdb.
192 * @ntdb: the ntdb context returned from ntdb_open()
193 * @key: the key
194 * @data: pointer to data.
196 * This looks up a key in the database and sets it in @data.
198 * If it returns NTDB_SUCCESS, the key was found: it is your
199 * responsibility to call free() on @data->dptr.
201 * Otherwise, it returns an error (usually, NTDB_ERR_NOEXIST) and @data is
202 * undefined.
204 enum NTDB_ERROR ntdb_fetch(struct ntdb_context *ntdb, NTDB_DATA key,
205 NTDB_DATA *data);
208 * ntdb_errorstr - map the ntdb error onto a constant readable string
209 * @ecode: the enum NTDB_ERROR to map.
211 * This is useful for displaying errors to users.
213 const char *ntdb_errorstr(enum NTDB_ERROR ecode);
216 * ntdb_append - append a value to a key/value pair in a ntdb.
217 * @ntdb: the ntdb context returned from ntdb_open()
218 * @key: the key
219 * @dbuf: the data to append.
221 * This is equivalent to fetching a record, reallocating .dptr to add the
222 * data, and writing it back, only it's much more efficient. If the key
223 * doesn't exist, it's equivalent to ntdb_store (with an additional hint that
224 * you expect to expand the record in future).
226 * See Also:
227 * ntdb_fetch(), ntdb_store()
229 enum NTDB_ERROR ntdb_append(struct ntdb_context *ntdb,
230 NTDB_DATA key, NTDB_DATA dbuf);
233 * ntdb_delete - delete a key from a ntdb.
234 * @ntdb: the ntdb context returned from ntdb_open()
235 * @key: the key to delete.
237 * Returns NTDB_SUCCESS on success, or an error (usually NTDB_ERR_NOEXIST).
239 * See Also:
240 * ntdb_fetch(), ntdb_store()
242 enum NTDB_ERROR ntdb_delete(struct ntdb_context *ntdb, NTDB_DATA key);
245 * ntdb_exists - does a key exist in the database?
246 * @ntdb: the ntdb context returned from ntdb_open()
247 * @key: the key to search for.
249 * Returns true if it exists, or false if it doesn't or any other error.
251 bool ntdb_exists(struct ntdb_context *ntdb, NTDB_DATA key);
254 * ntdb_deq - are NTDB_DATA equal?
255 * @a: one NTDB_DATA
256 * @b: another NTDB_DATA
258 static inline bool ntdb_deq(NTDB_DATA a, NTDB_DATA b)
260 return a.dsize == b.dsize && memcmp(a.dptr, b.dptr, a.dsize) == 0;
264 * ntdb_mkdata - make a NTDB_DATA from const data
265 * @p: the constant pointer
266 * @len: the length
268 * As the dptr member of NTDB_DATA is not constant, you need to
269 * cast it. This function keeps thost casts in one place, as well as
270 * suppressing the warning some compilers give when casting away a
271 * qualifier (eg. gcc with -Wcast-qual)
273 static inline NTDB_DATA ntdb_mkdata(const void *p, size_t len)
275 NTDB_DATA d;
276 d.dptr = cast_const(void *, p);
277 d.dsize = len;
278 return d;
282 * ntdb_transaction_start - start a transaction
283 * @ntdb: the ntdb context returned from ntdb_open()
285 * This begins a series of atomic operations. Other processes will be able
286 * to read the ntdb, but not alter it (they will block), nor will they see
287 * any changes until ntdb_transaction_commit() is called.
289 * Note that if the NTDB_ALLOW_NESTING flag is set, a ntdb_transaction_start()
290 * within a transaction will succeed, but it's not a real transaction:
291 * (1) An inner transaction which is committed is not actually committed until
292 * the outer transaction is; if the outer transaction is cancelled, the
293 * inner ones are discarded.
294 * (2) ntdb_transaction_cancel() marks the outer transaction as having an error,
295 * so the final ntdb_transaction_commit() will fail.
296 * (3) the outer transaction will see the results of the inner transaction.
298 * See Also:
299 * ntdb_transaction_cancel, ntdb_transaction_commit.
301 enum NTDB_ERROR ntdb_transaction_start(struct ntdb_context *ntdb);
304 * ntdb_transaction_cancel - abandon a transaction
305 * @ntdb: the ntdb context returned from ntdb_open()
307 * This aborts a transaction, discarding any changes which were made.
308 * ntdb_close() does this implicitly.
310 void ntdb_transaction_cancel(struct ntdb_context *ntdb);
313 * ntdb_transaction_commit - commit a transaction
314 * @ntdb: the ntdb context returned from ntdb_open()
316 * This completes a transaction, writing any changes which were made.
318 * fsync() is used to commit the transaction (unless NTDB_NOSYNC is set),
319 * making it robust against machine crashes, but very slow compared to
320 * other NTDB operations.
322 * A failure can only be caused by unexpected errors (eg. I/O or
323 * memory); this is no point looping on transaction failure.
325 * See Also:
326 * ntdb_transaction_prepare_commit()
328 enum NTDB_ERROR ntdb_transaction_commit(struct ntdb_context *ntdb);
331 * ntdb_transaction_prepare_commit - prepare to commit a transaction
332 * @ntdb: the ntdb context returned from ntdb_open()
334 * This ensures we have the resources to commit a transaction (using
335 * ntdb_transaction_commit): if this succeeds then a transaction will only
336 * fail if the write() or fsync() calls fail.
338 * If this fails you must still call ntdb_transaction_cancel() to cancel
339 * the transaction.
341 * See Also:
342 * ntdb_transaction_commit()
344 enum NTDB_ERROR ntdb_transaction_prepare_commit(struct ntdb_context *ntdb);
347 * ntdb_traverse - traverse a NTDB
348 * @ntdb: the ntdb context returned from ntdb_open()
349 * @fn: the function to call for every key/value pair (or NULL)
350 * @p: the pointer to hand to @f
352 * This walks the NTDB until all they keys have been traversed, or @fn
353 * returns non-zero. If the traverse function or other processes are
354 * changing data or adding or deleting keys, the traverse may be
355 * unreliable: keys may be skipped or (rarely) visited twice.
357 * There is one specific exception: the special case of deleting the
358 * current key does not undermine the reliability of the traversal.
360 * On success, returns the number of keys iterated. On error returns
361 * a negative enum NTDB_ERROR value.
363 #define ntdb_traverse(ntdb, fn, p) \
364 ntdb_traverse_(ntdb, typesafe_cb_preargs(int, void *, (fn), (p), \
365 struct ntdb_context *, \
366 NTDB_DATA, NTDB_DATA), (p))
368 int64_t ntdb_traverse_(struct ntdb_context *ntdb,
369 int (*fn)(struct ntdb_context *,
370 NTDB_DATA, NTDB_DATA, void *), void *p);
373 * ntdb_parse_record - operate directly on data in the database.
374 * @ntdb: the ntdb context returned from ntdb_open()
375 * @key: the key whose record we should hand to @parse
376 * @parse: the function to call for the data
377 * @data: the private pointer to hand to @parse (types must match).
379 * This avoids a copy for many cases, by handing you a pointer into
380 * the memory-mapped database. It also locks the record to prevent
381 * other accesses at the same time, so it won't change.
383 * Within the @parse callback you can perform read operations on the
384 * database, but no write operations: no ntdb_store() or
385 * ntdb_delete(), for example. The exception is if you call
386 * ntdb_lockall() before ntdb_parse_record().
388 * Never alter the data handed to parse()!
390 #define ntdb_parse_record(ntdb, key, parse, data) \
391 ntdb_parse_record_((ntdb), (key), \
392 typesafe_cb_preargs(enum NTDB_ERROR, void *, \
393 (parse), (data), \
394 NTDB_DATA, NTDB_DATA), (data))
396 enum NTDB_ERROR ntdb_parse_record_(struct ntdb_context *ntdb,
397 NTDB_DATA key,
398 enum NTDB_ERROR (*parse)(NTDB_DATA k,
399 NTDB_DATA d,
400 void *data),
401 void *data);
404 * ntdb_get_seqnum - get a database sequence number
405 * @ntdb: the ntdb context returned from ntdb_open()
407 * This returns a sequence number: any change to the database from a
408 * ntdb context opened with the NTDB_SEQNUM flag will cause that number
409 * to increment. Note that the incrementing is unreliable (it is done
410 * without locking), so this is only useful as an optimization.
412 * For example, you may have a regular database backup routine which
413 * does not operate if the sequence number is unchanged. In the
414 * unlikely event of a failed increment, it will be backed up next
415 * time any way.
417 * Returns an enum NTDB_ERROR (ie. negative) on error.
419 int64_t ntdb_get_seqnum(struct ntdb_context *ntdb);
422 * ntdb_firstkey - get the "first" key in a NTDB
423 * @ntdb: the ntdb context returned from ntdb_open()
424 * @key: pointer to key.
426 * This returns an arbitrary key in the database; with ntdb_nextkey() it allows
427 * open-coded traversal of the database, though it is slightly less efficient
428 * than ntdb_traverse.
430 * It is your responsibility to free @key->dptr on success.
432 * Returns NTDB_ERR_NOEXIST if the database is empty.
434 enum NTDB_ERROR ntdb_firstkey(struct ntdb_context *ntdb, NTDB_DATA *key);
437 * ntdb_nextkey - get the "next" key in a NTDB
438 * @ntdb: the ntdb context returned from ntdb_open()
439 * @key: a key returned by ntdb_firstkey() or ntdb_nextkey().
441 * This returns another key in the database; it will free @key.dptr for
442 * your convenience.
444 * Returns NTDB_ERR_NOEXIST if there are no more keys.
446 enum NTDB_ERROR ntdb_nextkey(struct ntdb_context *ntdb, NTDB_DATA *key);
449 * ntdb_chainlock - lock a record in the NTDB
450 * @ntdb: the ntdb context returned from ntdb_open()
451 * @key: the key to lock.
453 * This prevents any access occurring to a group of keys including @key,
454 * even if @key does not exist. This allows primitive atomic updates of
455 * records without using transactions.
457 * You cannot begin a transaction while holding a ntdb_chainlock(), nor can
458 * you do any operations on any other keys in the database. This also means
459 * that you cannot hold more than one ntdb_chainlock() at a time.
461 * See Also:
462 * ntdb_chainunlock()
464 enum NTDB_ERROR ntdb_chainlock(struct ntdb_context *ntdb, NTDB_DATA key);
467 * ntdb_chainunlock - unlock a record in the NTDB
468 * @ntdb: the ntdb context returned from ntdb_open()
469 * @key: the key to unlock.
471 * The key must have previously been locked by ntdb_chainlock().
473 void ntdb_chainunlock(struct ntdb_context *ntdb, NTDB_DATA key);
476 * ntdb_chainlock_read - lock a record in the NTDB, for reading
477 * @ntdb: the ntdb context returned from ntdb_open()
478 * @key: the key to lock.
480 * This prevents any changes from occurring to a group of keys including @key,
481 * even if @key does not exist. This allows primitive atomic updates of
482 * records without using transactions.
484 * You cannot begin a transaction while holding a ntdb_chainlock_read(), nor can
485 * you do any operations on any other keys in the database. This also means
486 * that you cannot hold more than one ntdb_chainlock()/read() at a time.
488 * See Also:
489 * ntdb_chainlock()
491 enum NTDB_ERROR ntdb_chainlock_read(struct ntdb_context *ntdb, NTDB_DATA key);
494 * ntdb_chainunlock_read - unlock a record in the NTDB for reading
495 * @ntdb: the ntdb context returned from ntdb_open()
496 * @key: the key to unlock.
498 * The key must have previously been locked by ntdb_chainlock_read().
500 void ntdb_chainunlock_read(struct ntdb_context *ntdb, NTDB_DATA key);
503 * ntdb_lockall - lock the entire NTDB
504 * @ntdb: the ntdb context returned from ntdb_open()
506 * You cannot hold a ntdb_chainlock while calling this. It nests, so you
507 * must call ntdb_unlockall as many times as you call ntdb_lockall.
509 enum NTDB_ERROR ntdb_lockall(struct ntdb_context *ntdb);
512 * ntdb_unlockall - unlock the entire NTDB
513 * @ntdb: the ntdb context returned from ntdb_open()
515 void ntdb_unlockall(struct ntdb_context *ntdb);
518 * ntdb_lockall_read - lock the entire NTDB for reading
519 * @ntdb: the ntdb context returned from ntdb_open()
521 * This prevents others writing to the database, eg. ntdb_delete, ntdb_store,
522 * ntdb_append, but not ntdb_fetch.
524 * You cannot hold a ntdb_chainlock while calling this. It nests, so you
525 * must call ntdb_unlockall_read as many times as you call ntdb_lockall_read.
527 enum NTDB_ERROR ntdb_lockall_read(struct ntdb_context *ntdb);
530 * ntdb_unlockall_read - unlock the entire NTDB for reading
531 * @ntdb: the ntdb context returned from ntdb_open()
533 void ntdb_unlockall_read(struct ntdb_context *ntdb);
536 * ntdb_wipe_all - wipe the database clean
537 * @ntdb: the ntdb context returned from ntdb_open()
539 * Completely erase the database. This is faster than iterating through
540 * each key and doing ntdb_delete.
542 enum NTDB_ERROR ntdb_wipe_all(struct ntdb_context *ntdb);
545 * ntdb_repack - repack the database
546 * @ntdb: the ntdb context returned from ntdb_open()
548 * This repacks the database; if it is suffering from a great deal of
549 * fragmentation this might help. However, it can take twice the
550 * memory of the existing NTDB.
552 enum NTDB_ERROR ntdb_repack(struct ntdb_context *ntdb);
555 * ntdb_check - check a NTDB for consistency
556 * @ntdb: the ntdb context returned from ntdb_open()
557 * @check: function to check each key/data pair (or NULL)
558 * @data: argument for @check, must match type.
560 * This performs a consistency check of the open database, optionally calling
561 * a check() function on each record so you can do your own data consistency
562 * checks as well. If check() returns an error, that is returned from
563 * ntdb_check().
565 * Note that the NTDB uses a feature which we don't understand which
566 * indicates we can't run ntdb_check(), this will log a warning to that
567 * effect and return NTDB_SUCCESS. You can detect this condition by
568 * looking for NTDB_CANT_CHECK in ntdb_get_flags().
570 * Returns NTDB_SUCCESS or an error.
572 #define ntdb_check(ntdb, check, data) \
573 ntdb_check_((ntdb), typesafe_cb_preargs(enum NTDB_ERROR, void *, \
574 (check), (data), \
575 NTDB_DATA, \
576 NTDB_DATA), \
577 (data))
579 enum NTDB_ERROR ntdb_check_(struct ntdb_context *ntdb,
580 enum NTDB_ERROR (*check)(NTDB_DATA k,
581 NTDB_DATA d,
582 void *data),
583 void *data);
586 * enum ntdb_summary_flags - flags for ntdb_summary.
588 enum ntdb_summary_flags {
589 NTDB_SUMMARY_HISTOGRAMS = 1 /* Draw graphs in the summary. */
593 * ntdb_summary - return a string describing the NTDB state
594 * @ntdb: the ntdb context returned from ntdb_open()
595 * @flags: flags to control the summary output.
596 * @summary: pointer to string to allocate.
598 * This returns a developer-readable string describing the overall
599 * state of the ntdb, such as the percentage used and sizes of records.
600 * It is designed to provide information about the ntdb at a glance
601 * without displaying any keys or data in the database.
603 * On success, sets @summary to point to a malloc()'ed nul-terminated
604 * multi-line string. It is your responsibility to free() it.
606 enum NTDB_ERROR ntdb_summary(struct ntdb_context *ntdb,
607 enum ntdb_summary_flags flags,
608 char **summary);
612 * ntdb_get_flags - return the flags for a ntdb
613 * @ntdb: the ntdb context returned from ntdb_open()
615 * This returns the flags on the current ntdb. Some of these are caused by
616 * the flags argument to ntdb_open(), others (such as NTDB_CONVERT) are
617 * intuited.
619 unsigned int ntdb_get_flags(struct ntdb_context *ntdb);
622 * ntdb_add_flag - set a flag for a ntdb
623 * @ntdb: the ntdb context returned from ntdb_open()
624 * @flag: one of NTDB_NOLOCK, NTDB_NOMMAP, NTDB_NOSYNC or NTDB_ALLOW_NESTING.
626 * You can use this to set a flag on the NTDB. You cannot set these flags
627 * on a NTDB_INTERNAL ntdb.
629 void ntdb_add_flag(struct ntdb_context *ntdb, unsigned flag);
632 * ntdb_remove_flag - unset a flag for a ntdb
633 * @ntdb: the ntdb context returned from ntdb_open()
634 * @flag: one of NTDB_NOLOCK, NTDB_NOMMAP, NTDB_NOSYNC or NTDB_ALLOW_NESTING.
636 * You can use this to clear a flag on the NTDB. You cannot clear flags
637 * on a NTDB_INTERNAL ntdb.
639 void ntdb_remove_flag(struct ntdb_context *ntdb, unsigned flag);
642 * enum ntdb_attribute_type - descriminator for union ntdb_attribute.
644 enum ntdb_attribute_type {
645 NTDB_ATTRIBUTE_LOG = 0,
646 NTDB_ATTRIBUTE_HASH = 1,
647 NTDB_ATTRIBUTE_SEED = 2,
648 NTDB_ATTRIBUTE_STATS = 3,
649 NTDB_ATTRIBUTE_OPENHOOK = 4,
650 NTDB_ATTRIBUTE_FLOCK = 5,
651 NTDB_ATTRIBUTE_ALLOCATOR = 6,
652 NTDB_ATTRIBUTE_HASHSIZE = 7
656 * ntdb_get_attribute - get an attribute for an existing ntdb
657 * @ntdb: the ntdb context returned from ntdb_open()
658 * @attr: the union ntdb_attribute to set.
660 * This gets an attribute from a NTDB which has previously been set (or
661 * may return the default values). Set @attr.base.attr to the
662 * attribute type you want get.
664 enum NTDB_ERROR ntdb_get_attribute(struct ntdb_context *ntdb,
665 union ntdb_attribute *attr);
668 * ntdb_set_attribute - set an attribute for an existing ntdb
669 * @ntdb: the ntdb context returned from ntdb_open()
670 * @attr: the union ntdb_attribute to set.
672 * This sets an attribute on a NTDB, overriding any previous attribute
673 * of the same type. It returns NTDB_ERR_EINVAL if the attribute is
674 * unknown or invalid.
676 * Note that NTDB_ATTRIBUTE_HASH, NTDB_ATTRIBUTE_SEED, and
677 * NTDB_ATTRIBUTE_OPENHOOK cannot currently be set after ntdb_open.
679 enum NTDB_ERROR ntdb_set_attribute(struct ntdb_context *ntdb,
680 const union ntdb_attribute *attr);
683 * ntdb_unset_attribute - reset an attribute for an existing ntdb
684 * @ntdb: the ntdb context returned from ntdb_open()
685 * @type: the attribute type to unset.
687 * This unsets an attribute on a NTDB, returning it to the defaults
688 * (where applicable).
690 * Note that it only makes sense for NTDB_ATTRIBUTE_LOG and NTDB_ATTRIBUTE_FLOCK
691 * to be unset.
693 void ntdb_unset_attribute(struct ntdb_context *ntdb,
694 enum ntdb_attribute_type type);
697 * ntdb_name - get the name of a ntdb
698 * @ntdb: the ntdb context returned from ntdb_open()
700 * This returns a copy of the name string, made at ntdb_open() time.
702 * This is mostly useful for logging.
704 const char *ntdb_name(const struct ntdb_context *ntdb);
707 * ntdb_fd - get the file descriptor of a ntdb
708 * @ntdb: the ntdb context returned from ntdb_open()
710 * This returns the file descriptor for the underlying database file, or -1
711 * for NTDB_INTERNAL.
713 int ntdb_fd(const struct ntdb_context *ntdb);
716 * ntdb_foreach - iterate through every open NTDB.
717 * @fn: the function to call for every NTDB
718 * @p: the pointer to hand to @fn
720 * NTDB internally keeps track of all open TDBs; this function allows you to
721 * iterate through them. If @fn returns non-zero, traversal stops.
723 #define ntdb_foreach(fn, p) \
724 ntdb_foreach_(typesafe_cb_preargs(int, void *, (fn), (p), \
725 struct ntdb_context *), (p))
727 void ntdb_foreach_(int (*fn)(struct ntdb_context *, void *), void *p);
730 * struct ntdb_attribute_base - common fields for all ntdb attributes.
732 struct ntdb_attribute_base {
733 enum ntdb_attribute_type attr;
734 union ntdb_attribute *next;
738 * enum ntdb_log_level - log levels for ntdb_attribute_log
739 * @NTDB_LOG_ERROR: used to log unrecoverable errors such as I/O errors
740 * or internal consistency failures.
741 * @NTDB_LOG_USE_ERROR: used to log usage errors such as invalid parameters
742 * or writing to a read-only database.
743 * @NTDB_LOG_WARNING: used for informational messages on issues which
744 * are unusual but handled by NTDB internally, such
745 * as a failure to mmap or failure to open /dev/urandom.
746 * It's also used when ntdb_open() fails without O_CREAT
747 * because a file does not exist.
749 enum ntdb_log_level {
750 NTDB_LOG_ERROR,
751 NTDB_LOG_USE_ERROR,
752 NTDB_LOG_WARNING
756 * struct ntdb_attribute_log - log function attribute
758 * This attribute provides a hook for you to log errors.
760 struct ntdb_attribute_log {
761 struct ntdb_attribute_base base; /* .attr = NTDB_ATTRIBUTE_LOG */
762 void (*fn)(struct ntdb_context *ntdb,
763 enum ntdb_log_level level,
764 enum NTDB_ERROR ecode,
765 const char *message,
766 void *data);
767 void *data;
771 * struct ntdb_attribute_hash - hash function attribute
773 * This attribute allows you to provide an alternative hash function.
774 * This hash function will be handed keys from the database; it will also
775 * be handed the 8-byte NTDB_HASH_MAGIC value for checking the header (the
776 * ntdb_open() will fail if the hash value doesn't match the header).
778 * Note that if your hash function gives different results on
779 * different machine endians, your ntdb will no longer work across
780 * different architectures!
782 struct ntdb_attribute_hash {
783 struct ntdb_attribute_base base; /* .attr = NTDB_ATTRIBUTE_HASH */
784 uint32_t (*fn)(const void *key, size_t len, uint32_t seed,
785 void *data);
786 void *data;
790 * struct ntdb_attribute_seed - hash function seed attribute
792 * The hash function seed is normally taken from /dev/urandom (or equivalent)
793 * but can be set manually here. This is mainly for testing purposes.
795 struct ntdb_attribute_seed {
796 struct ntdb_attribute_base base; /* .attr = NTDB_ATTRIBUTE_SEED */
797 uint64_t seed;
801 * struct ntdb_attribute_stats - ntdb operational statistics
803 * This attribute records statistics of various low-level NTDB operations.
804 * This can be used to assist performance evaluation. This is only
805 * useful for ntdb_get_attribute().
807 * New fields will be added at the end, hence the "size" argument which
808 * indicates how large your structure is: it must be filled in before
809 * calling ntdb_get_attribute(), which will overwrite it with the size
810 * ntdb knows about.
812 struct ntdb_attribute_stats {
813 struct ntdb_attribute_base base; /* .attr = NTDB_ATTRIBUTE_STATS */
814 size_t size; /* = sizeof(struct ntdb_attribute_stats) */
815 uint64_t allocs;
816 uint64_t alloc_subhash;
817 uint64_t alloc_chain;
818 uint64_t alloc_bucket_exact;
819 uint64_t alloc_bucket_max;
820 uint64_t alloc_leftover;
821 uint64_t alloc_coalesce_tried;
822 uint64_t alloc_coalesce_iterate_clash;
823 uint64_t alloc_coalesce_lockfail;
824 uint64_t alloc_coalesce_race;
825 uint64_t alloc_coalesce_succeeded;
826 uint64_t alloc_coalesce_num_merged;
827 uint64_t compares;
828 uint64_t compare_wrong_offsetbits;
829 uint64_t compare_wrong_keylen;
830 uint64_t compare_wrong_rechash;
831 uint64_t compare_wrong_keycmp;
832 uint64_t transactions;
833 uint64_t transaction_cancel;
834 uint64_t transaction_nest;
835 uint64_t transaction_expand_file;
836 uint64_t transaction_read_direct;
837 uint64_t transaction_read_direct_fail;
838 uint64_t transaction_write_direct;
839 uint64_t transaction_write_direct_fail;
840 uint64_t traverses;
841 uint64_t traverse_val_vanished;
842 uint64_t expands;
843 uint64_t frees;
844 uint64_t locks;
845 uint64_t lock_lowlevel;
846 uint64_t lock_nonblock;
847 uint64_t lock_nonblock_fail;
851 * struct ntdb_attribute_openhook - ntdb special effects hook for open
853 * This attribute contains a function to call once we have the OPEN_LOCK
854 * for the ntdb, but before we've examined its contents. If this succeeds,
855 * the ntdb will be populated if it's then zero-length.
857 * This is a hack to allow support for TDB-style TDB_CLEAR_IF_FIRST
858 * behaviour.
860 struct ntdb_attribute_openhook {
861 struct ntdb_attribute_base base; /* .attr = NTDB_ATTRIBUTE_OPENHOOK */
862 enum NTDB_ERROR (*fn)(int fd, void *data);
863 void *data;
867 * struct ntdb_attribute_flock - ntdb special effects hook for file locking
869 * This attribute contains function to call to place locks on a file; it can
870 * be used to support non-blocking operations or lock proxying.
872 * They should return 0 on success, -1 on failure and set errno.
874 * An error will be logged on error if errno is neither EAGAIN nor EINTR
875 * (normally it would only return EAGAIN if waitflag is false, and
876 * loop internally on EINTR).
878 struct ntdb_attribute_flock {
879 struct ntdb_attribute_base base; /* .attr = NTDB_ATTRIBUTE_FLOCK */
880 int (*lock)(int fd,int rw, off_t off, off_t len, bool waitflag, void *);
881 int (*unlock)(int fd, int rw, off_t off, off_t len, void *);
882 void *data;
886 * struct ntdb_attribute_hashsize - ntdb hashsize setting.
888 * This attribute is only settable on ntdb_open; it indicates that we create
889 * a hashtable of the given size, rather than the default.
891 struct ntdb_attribute_hashsize {
892 struct ntdb_attribute_base base; /* .attr = NTDB_ATTRIBUTE_HASHSIZE */
893 uint32_t size;
897 * struct ntdb_attribute_allocator - allocator for ntdb to use.
899 * You can replace malloc/free with your own allocation functions.
900 * The allocator takes an "owner" pointer, which is either NULL (for
901 * the initial struct ntdb_context and struct ntdb_file), or a
902 * previously allocated pointer. This is useful for relationship
903 * tracking, such as the talloc library.
905 * The expand function is realloc, but only ever used to expand an
906 * existing allocation.
908 * Be careful mixing allocators: two ntdb_contexts which have the same file
909 * open will share the same struct ntdb_file. This may be allocated by one
910 * ntdb's allocator, and freed by the other.
912 struct ntdb_attribute_allocator {
913 struct ntdb_attribute_base base; /* .attr = NTDB_ATTRIBUTE_ALLOCATOR */
914 void *(*alloc)(const void *owner, size_t len, void *priv_data);
915 void *(*expand)(void *old, size_t newlen, void *priv_data);
916 void (*free)(void *old, void *priv_data);
917 void *priv_data;
921 * union ntdb_attribute - ntdb attributes.
923 * This represents all the known attributes.
925 * See also:
926 * struct ntdb_attribute_log, struct ntdb_attribute_hash,
927 * struct ntdb_attribute_seed, struct ntdb_attribute_stats,
928 * struct ntdb_attribute_openhook, struct ntdb_attribute_flock,
929 * struct ntdb_attribute_allocator alloc.
931 union ntdb_attribute {
932 struct ntdb_attribute_base base;
933 struct ntdb_attribute_log log;
934 struct ntdb_attribute_hash hash;
935 struct ntdb_attribute_seed seed;
936 struct ntdb_attribute_stats stats;
937 struct ntdb_attribute_openhook openhook;
938 struct ntdb_attribute_flock flock;
939 struct ntdb_attribute_allocator alloc;
940 struct ntdb_attribute_hashsize hashsize;
943 #ifdef __cplusplus
945 #endif
947 #endif /* ntdb.h */